Elliptic-flow coefficients $v_2$ based on the six-particle correlations technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 2.4$.

Elliptic-flow coefficients $v_2$ based on the eight-particle correlations technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 2.4$.

Triangular-flow coefficients $v_3$ based on the two-particle correlations technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 2.4$.

Triangular-flow coefficients $v_3$ based on the scalar-product technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 0.8$.

Triangular-flow coefficients $v_3$ based on the four-particle correlations technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 2.4$.

The $v_4$ coefficients based on the two-particle correlations technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 2.4$.

The $v_4$ coefficients based on the scalar-product technique, as functions of transverse momentum and in bins of centrality. The results correspond to the range $|\eta| < 0.8$.

Centrality dependence of the spectrum-weighted $v_2$ flow harmonics with $0.3 < p_{\mathrm{T}} < 3.0~\mathrm{GeV}/c$. The $v_2$ results are shown for two-, four-, six-, and eight-particle correlations.

Centrality dependence of the spectrum-weighted $v_3$ flow harmonics with $0.3 < p_{\mathrm{T}} < 3.0~\mathrm{GeV}/c$. The results are shown for two- and four-particle correlations.

Centrality dependence of the spectrum-weighted $v_4$ flow harmonics with $0.3 < p_{\mathrm{T}} < 3.0~\mathrm{GeV}/c$. The results are shown for two-particle correlations.

Centrality dependence of $v_2\{4\}/v_2\{2\}$ ratios.

Centrality dependence of $v_2\{6\}/v_2\{4\}$ ratios.

Centrality dependence of $v_3\{4\}/v_3\{2\}$ ratios.

The $v_2$ results measured with two-particle correlations from PbPb collisions at $5.02~$TeV, shown as a function of $p_{\mathrm{T}}$ in eleven centrality bins.

The $v_3$ results measured with two-particle correlations from PbPb collisions at $5.02~$TeV, shown as a function of $p_{\mathrm{T}}$ in eleven centrality bins.

The $v_4$ results measured with two-particle correlations from PbPb collisions at $5.02~$TeV, shown as a function of $p_{\mathrm{T}}$ in eleven centrality bins.

Ratios of the $v_2$ harmonic coefficients from two-particle correlations in XeXe and PbPb collisions as functions of $p_{\mathrm{T}}$ in 11 centrality bins.

Ratios of the $v_3$ harmonic coefficients from two-particle correlations in XeXe and PbPb collisions as functions of $p_{\mathrm{T}}$ in 11 centrality bins.

Ratios of the $v_4$ harmonic coefficients from two-particle correlations in XeXe and PbPb collisions as functions of $p_{\mathrm{T}}$ in 11 centrality bins.

Centrality dependence of the spectrum-weighted $v_2$, $v_3$, and $v_4$ harmonic coefficients from two-particle correlations method for $0.3 < p_{\mathrm{T}} < 3.0 \mathrm{GeV}/c$ for PbPb collisions at $5.02$~TeV.

Ratios of the $v_2$, $v_3$, and $v_4$ harmonic coefficients from two-particle correlations in XeXe and PbPb collisions as functions or $0.3 < p_{\mathrm{T}} < 3.0~\mathrm{GeV}/c$ as a function of centrality.

Ratio rho_PbPb(dR)/rho_pp(dR) of leading jet shape for peripheral PbPb data (centrality 50-100%) to leading jet shape for pp data.

Ratio rho_PbPb(dR)/rho_pp(dR) of leading jet shape for central PbPb data (centrality 0-30%) to leading jet shape for pp data.

Subleading jet shape rho(dR) versus dR for pp data, normalized to unity over the range dR < 0.3.

Subleading jet shape rho(dR) versus dR for peripheral PbPb data (centrality 50-100%), normalized to unity over the range dR < 0.3.

Subleading jet shape rho(dR) versus dR for central PbPb data (centrality 0-30%), normalized to unity over the range dR < 0.3.

Ratio rho_PbPb(dR)/rho_pp(dR) of subleading jet shape for peripheral PbPb data (centrality 50-100%) to subleading jet shape for pp data.

Ratio rho_PbPb(dR)/rho_pp(dR) of subleading jet shape for central PbPb data (centrality 0-30%) to subleading jet shape for pp data.

Difference of the total track transverse momentum distributions between subleading and leading hemispheres in pp data (denoted d, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference of the total track transverse momentum distributions (P = 1/N dSum(pT)/dPhi) between subleading and leading hemispheres in peripheral PbPb data (centrality 50-100%), projected into relative azimuth, for balanced dijets with Aj < 0.22. Hemisphere subleading-to-leading difference is denoted dP.

Difference of the total track transverse momentum distributions (P = 1/N dSum(pT)/dPhi) between subleading and leading hemispheres in central PbPb data (centrality 0-30%), projected into relative azimuth, for balanced dijets with Aj < 0.22. Hemisphere subleading-to-leading difference is denoted dP.

Double difference of transverse momentum distributions, subleading minus leading, peripheral PbPb minus pp (dP_PbPb - dP_p), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Double difference of transverse momentum distributions, subleading minus leading, central PbPb minus pp (dP_PbPb - dP_p), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference of the total track transverse momentum distributions (P = 1/N dSum(pT)/dPhi) between subleading and leading hemispheres in pp data, projected into relative azimuth, for unbalanced dijets with Aj > 0.22. Hemisphere subleading-to-leading difference is denoted dP.

Difference of the total track transverse momentum distributions (P = 1/N dSum(pT)/dPhi) between subleading and leading hemispheres in peripheral PbPb data (centrality 50-100%), projected into relative azimuth, for unbalanced dijets with Aj > 0.22. Hemisphere subleading-to-leading difference is denoted dP.

Difference of the total track transverse momentum distributions (P = 1/N dSum(pT)/dPhi) between subleading and leading hemispheres in central PbPb data (centrality 0-30%), projected into relative azimuth, for unbalanced dijets with Aj > 0.22. Hemisphere subleading-to-leading difference is denoted dP.

Double difference of transverse momentum distributions, subleading minus leading, peripheral PbPb minus pp (dP_PbPb - dP_p), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Double difference of transverse momentum distributions, subleading minus leading, central PbPb minus pp (dP_PbPb - dP_p), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for leading jets in pp data, projected into relative azimuth and plotted in the negative direction, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for subleading jets in pp data, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for leading jets in peripheral PbPb data, projected into relative azimuth and plotted in the negative direction, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for subleading jets in peripheral PbPb data, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for leading jets in central PbPb data, projected into relative azimuth and plotted in the negative direction, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for subleading jets in central PbPb data, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference, peripheral PbPb minus pp data in subleading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference, central PbPb minus pp data in subleading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference, peripheral PbPb minus pp data in leading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth and plotted in the negative direction, for balanced dijets with Aj < 0.22.

Difference, central PbPb minus pp data in leading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth and plotted in the negative direction, for balanced dijets with Aj < 0.22.

Double difference, peripheral PbPb minus pp, subleading minus leading (dP_PbPb - dP_pp), in jet peak transverse momentum distributions, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Double difference, central PbPb minus pp, subleading minus leading (dP_PbPb - dP_pp), in jet peak transverse momentum distributions, projected into relative azimuth, for balanced dijets with Aj < 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for leading jets in pp data, projected into relative azimuth and plotted in the negative direction, for unbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for subleading jets in pp data, projected into relative azimuth, forunbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum for leading jets in peripheral PbPb data, projected into relative azimuth and plotted in the negative direction, for unbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for subleading jets in peripheral PbPb data, projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum (P = 1/N dSum(pT)/dPhi) for leading jets in central PbPb data, projected into relative azimuth and plotted in the negative direction, for unbalanced dijets with Aj > 0.22.

Jet peak (long-range subtracted) distribution of transverse momentum for subleading jets in central PbPb data, projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference, peripheral PbPb minus pp data in subleading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference, central PbPb minus pp data in subleading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference, peripheral PbPb minus pp data in leading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth and plotted in the negative direction, for unbalanced dijets with Aj > 0.22.

Difference, central PbPb minus pp data in leading jet peak transverse momentum distributions (P_PbPb - P_pp), projected into relative azimuth and plotted in the negative direction, for unbalanced dijets with Aj > 0.22.

Double difference, peripheral PbPb minus pp, subleading minus leading, in jet peak transverse momentum distributions (dP_PbPb - dP_pp), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Double difference, peripheral PbPb minus pp, subleading minus leading (dP_PbPb - dP_pp), in jet peak transverse momentum distributions, projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres in pp data (dP), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres (dP) in peripheral PbPb data (centrality 50-100%), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres (dP) in central PbPb data (centrality 0-30%), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Double difference of long range transverse momentum distributions, subleading minus leading, peripheral PbPb minus pp (dP_PbPb - dP_pp), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Double difference of long range transverse momentum distributions, subleading minus leading, central PbPb minus pp (dP_PbPb - dP_pp), projected into relative azimuth, for balanced dijets with Aj < 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres (dP) in pp data, projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres (dP) in peripheral PbPb data (centrality 50-100%), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Difference of the long range track transverse momentum distributions between subleading and leading hemispheres (dP) in central PbPb data (centrality 0-30%), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Double difference of the long range transverse momentum distributions, subleading minus leading, peripheral PbPb minus pp, projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Double difference of the long range transverse momentum distributions, subleading minus leading, central PbPb minus pp (dP_PbPb - dP_pp), projected into relative azimuth, for unbalanced dijets with Aj > 0.22.

Integrated transverse momentum in the long-range correlated distribution, as a function of track-pT, for balanced dijets with Aj < 0.22.

Integrated transverse momentum in the long-range correlated distribution, as a function of track-pT, for unbalanced dijets with Aj > 0.22.

Integrated transverse momentum difference central PbPb minus pp of the jet peak distributions (subleading minus leading), as a function of track-pT, for balanced dijets with Aj < 0.22.

Integrated transverse momentum difference central PbPb minus pp of the jet peak distributions (subleading minus leading), as a function of track-pT, for unbalanced dijets with Aj > 0.22.

Integrated transverse momentum difference central PbPb minus pp of the total transverse momentum distributions (subleading minus leading), as a function of track-pT, for balanced dijets with Aj < 0.22.

Integrated transverse momentum difference central PbPb minus pp of the total transverse momentum distributions (subleading minus leading), as a function of track-pT, for unbalanced dijets with Aj > 0.22.

Integrated transverse momentum difference peripheral PbPb minus pp of the jet peak distributions (subleading minus leading), as a function of track-pT, for balanced dijets with Aj < 0.22.

Integrated transverse momentum difference peripheral PbPb minus pp of the jet peak distributions (subleading minus leading), as a function of track-pT, for unbalanced dijets with Aj > 0.22.

Integrated transverse momentum difference peripheral PbPb minus pp of the total transverse momentum distributions (subleading minus leading), as a function of track-pT, for balanced dijets with Aj < 0.22.

Integrated transverse momentum difference peripheral PbPb minus pp of the total transverse momentum distributions (subleading minus leading), as a function of track-pT, for unbalanced dijets with Aj > 0.22.